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AN ASSESSMENT
OF
MUNICIPAL SOLID WASTE MANAGEMENT PRACTICES
IN PULAU KETAM, MALAYSIA
CAO XIANG
FACULTY OF ENGINEERING
UNIVERSITY OF MALAYA
KUALA LUMPUR
2016
Univers
ity of
Mala
ya
AN ASSESSMENT
OF
MUNICIPAL SOLID WASTE MANAGEMENT
PRACTICES IN PULAU KETAM
MALAYSIA
CAO XIANG
RESEARCH REPORT SUBMITTED IN PARTIAL
FULFILMENT OF THE REQUIREMENTS FOR THE
DEGREE OF MASTER OF ENGINEERING
(SAFETY, HEALTH AND ENVIRONMENT)
FACULTY OF ENGINEERING
UNIVERSITY OF MALAYA
KUALA LUMPUR
2016
Univers
ity of
Mala
ya
UNIVERSITY OF MALAYA
ORIGINAL LITERARY WORK DECLARATION
Name of Candidate: CAO XIANG
Registration/Matric No: KGJ140056
Name of Degree: Master of Engineering (Safety, Health and Environment)
An Investigation of Municipal Solid Waste Management in Pulau Ketam,
Malaysia
Field of Study: Solid Waste Management
I do solemnly and sincerely declare that:
(1) I am the sole author/writer of this Work;
(2) This Work is original;
(3) Any use of any work in which copyright exists was done by way of fair dealing
and for permitted purposes and any excerpt or extract from, or reference to or
reproduction of any copyright work has been disclosed expressly and
sufficiently and the title of the Work and its authorship have been
acknowledged in this Work;
(4) I do not have any actual knowledge nor do I ought reasonably to know that the
making of this work constitutes an infringement of any copyright work;
(5) I hereby assign all and every right in the copyright to this Work to the
University of Malaya (“UM”), who henceforth shall be owner of the copyright
in this Work and that any reproduction or use in any form or by any means
whatsoever is prohibited without the written consent of UM having been first
had and obtained;
(6) I am fully aware that if in the course of making this Work I have infringed any
copyright whether intentionally or otherwise, I may be subject to legal action
or any other action as may be determined by UM.
Candidate’s Signature Date:
Subscribed and solemnly declared before,
Witness’s Signature Date:
Name:
Designation:
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ABSTRACT
As a mangrove island, Pulau Ketam is rich in natural resources and attracts quite a number
of visitors. Fishing and tourism are the main economic sources on this island. Therefore,
municipal solid waste management in Pulau Ketam is becoming increasingly important.
Presently, the total population is approximately 6 to 7 thousand on this island. Among
them about 4 thousand residents are living in Pulau Ketam village, which is the study area.
Through interviews, questionnaire, observation and document analysis, the information
on current MSWM practices in Pulau Ketam was gathered. After 16 years of MSWM
practice, the situation of management MSW has been changed. The solid waste collection
company has placed dustbins on this island. However, open dumping on the island still
exists. Throughout this study, an assessment has been done on the current status of
MSWM practices in Pulau Ketam. This assessment has identified the issues of MSWM
system, and subsequently proposed suggestions to overcome the issues. The major issues
on this island are included: lack of infrastructures for MSWM system, weak awareness
of islanders, and non-implementation government management policy. By analyzing and
comparing with effective MSWM systems in Asia, especially Kamikatsu, appropriate
sustainable solutions are proposed. The analysis proved that MSWM system cannot
succeed without the understanding and commitment from the residents. Therefore, to
overcome the issues, the committee of Pulau Ketam should set a program to increase
islanders’ awareness of MSWM system, add the infrastructures of MSWM reasonable,
and enforce the management of MSW recycling and disposal. Although achieving a
successful MSWM system in Pulau Ketam has a long way to go, the islanders are
certainly in a positive mindset to support any policy change towards cleaner home.
Key words: Solid waste, MSW management, MSWM practice, Pulau Ketam
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ABSTRAK
Sebagai sebuah pulau bakau, Pulau Ketam kaya dengan pelbagai sumber semulajadi. Kini,
kebanyakan pelawat tertarik dengan makanan laut di atas pulau ini. Walaubagaimanapun,
selepas 16 tahun MSWM dilaksanakan, lambakan terbuka masih wujud di atas pulau.
Sistem Pengurusan Sisa Pepejal Perbandaran (MSWM) yang berkesan mampu
meningkatkan keadaan alam sekitar di atas pulau, serta menggalakkan perkembangan
pelancongan. Kajian ini menyiasat keadaan semasa MSWM di Pulau Ketam. Melalui
analisa dokumen, temuduga, pemerhatian, dan soal selidik, maklumat semasa MSWM di
Pulau Ketam dapat diperoleh. Situasi MSWM adalah lebih baik daripada sebelum. Tetapi,
ia boleh menjadi lebih baik. Beberapa masalah utama telah dikenal pasti. Isu utama di
atas pulau ini adalah infrastuktur untuk MSWM, kesedaran penghuni pulau, dan dasar
pengurusan kerajaan. Dengan menganalisa dan membandingkan sistem-sistem MWSM
yang berkesan di Asia, penyelesaian mampan yang sesuai dicadangkan untuk
pelaksanaan mampan MSWM di Pulau Ketam. Analisa membuktikan system MSWM
tidak dapat dijayakan tanpa pemahaman dan komitmen daripada penghuni pulau.
Walaupun untuk mencapai MSWM yang mampan di Pulau Ketam masih memerlukan
jalan yang jauh, penghuni pulau sepastinya menpunyai minda positif untuk menyokong
sebarang perubahan dasar terhadap persekitaran bersih.
Kata kunci: Sisa pepejal, MSWM, Pulau Ketam Univers
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ACKNOWLEDGEMENTS
I would like to express my deepest appreciation to all those who provided me the
possibility to complete this report. A special gratitude I give to my supervisor, Dr.
Jegalakshimi, whose guidance and encouragement, helped me to complete my report.
Furthermore, I would like to acknowledge the residents in Pulau Ketam who willing to
share their experiences and information in order to gain better understanding and
knowledge to complete this project.
I am also grateful to my classmates and friends for their friendship and gave suggestions
about my project.
Last but not least, many thanks go to my family: my parents for supporting me spiritually
throughout writing this report and my life in general.
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TABLES OF CONTENTS
ORIGINAL LITERARY WORK DECLARATION ....................................................... ii
ABSTRACT .................................................................................................................... iii
ABSTRAK ...................................................................................................................... iv
ACKNOWLEDGEMENTS ............................................................................................. v
LIST OF FIGURES .......................................................................................................... x
LIST OF TABLES .......................................................................................................... xi
LIST OF SYMBOLS AND ABBREVIATIONS ........................................................... xii
Chapter 1: Introduction ..................................................................................................... 1
1.1 Overview .................................................................................................................... 1
1.2 Problem Statement ...................................................................................................... 4
1.3 Aim and Objectives of Study ..................................................................................... 5
1.4 Scope of Study ............................................................................................................ 5
1.5 Organization of Thesis ............................................................................................... 6
Chapter 2: Literature Review ........................................................................................... 7
2.1 Introduction ................................................................................................................ 7
2.2 Municipal Solid Waste ............................................................................................... 7
2.2.1 Source and Category of Municipal Solid Waste ........................................... 7
2.2.2 Characteristics of Municipal Solid Waste ..................................................... 8
2.2.3 Composition of Municipal Solid Waste ........................................................ 9
2.3 Municipal Solid Waste Management (MSWM) ....................................................... 10
2.3.1 Solid Waste Collection and Storage ............................................................ 11
2.3.1.1 Collection ................................................................................................. 11
2.3.1.2 Storage ..................................................................................................... 11
2.3.2 Transfer of MSW ......................................................................................... 12
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2.3.3 Disposal methods ......................................................................................... 12
2.3.3.1 Sanitary Land Filling ............................................................................ 12
2.3.3.2 Incineration .............................................................................................. 13
2.3.3.3 Biological Treatment................................................................................ 13
2.3.3.4 Composting .............................................................................................. 14
2.4 Sustainable Methods of MSWM .............................................................................. 14
2.4.1 Integrated Waste Management .................................................................... 15
2.4.2 Minimization of Wastes .............................................................................. 15
2.4.3 Zero Waste ................................................................................................... 16
2.4.4 Cradle-to-Grave ........................................................................................... 17
2.4.5 Life-Cycle Assessment (LCA) .................................................................... 17
2.5 Current Situation of MSWM in Malaysia ................................................................ 18
2.5.1 Policies in Malaysia ..................................................................................... 18
2.5.2 MSW Generation ......................................................................................... 20
2.5.3 Disposal System of MSW in Malaysia ........................................................ 22
2.5.3.1 Landfilling ................................................................................................ 22
2.5.3.2 Recycling ................................................................................................. 24
2.5.3.3 Incineration .............................................................................................. 24
2.6 Review of Pulau Ketam ............................................................................................ 25
2.6.1 Background Information ............................................................................. 25
2.6.2 History of MSWM in Pulau Ketam ............................................................. 27
2.6.3 Issue for MSWM in Pulau Ketam ............................................................... 28
2.7 Brief Cases of MSWM in Asian Countries’ Islands................................................. 29
2.7.1 Hong Kong, China ....................................................................................... 30
2.7.2 Singapore ..................................................................................................... 31
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2.7.3 Japan ............................................................................................................ 32
2.7.4 Conclusions ................................................................................................. 34
2.8 Literature Review Summary ..................................................................................... 34
Chapter 3: Methodology ................................................................................................. 36
3.1 Introduction .............................................................................................................. 36
3.2 Research Design ....................................................................................................... 36
3.3 Information Collection ............................................................................................. 37
3.3.1 Document Analysis (Secondary Data) ........................................................ 37
3.3.2 Interview ...................................................................................................... 38
3.3.3 Observation .................................................................................................. 38
3.3.4 Questionnaire ............................................................................................... 39
3.4 Ethical Statement ...................................................................................................... 40
3.5 Safety Precondition .................................................................................................. 40
Chapter 4: Results and Discussion ................................................................................. 41
4.1 General Municipal Solid Waste Management History in Pulau Ketam ................... 41
4.2 Current Issues in Pulau Ketam ................................................................................. 41
4.2.1 Incomplete Collection System ..................................................................... 41
4.2.2 Defective Storage System ............................................................................ 43
4.2.3 Lack of Awareness ...................................................................................... 45
4.2.4 Incomplete Recycling Process ..................................................................... 46
4.3 Compare with Kamikatsu, Japanese Town .............................................................. 48
4.4 Suggestions Measures for Pulau Ketam ................................................................... 50
4.4.1 Increase the facilities for MSW ................................................................... 50
4.4.2 Storage Area ................................................................................................ 52
4.4.3 Use the appropriate disposal technic ........................................................... 53
4.4.4 Increase the Awareness of Islanders ............................................................ 54
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4.4.5 Upgrade Recycling Points ........................................................................... 55
Chapter 5: Conclusion and Recommendation ................................................................ 57
5.1 Conclusions .............................................................................................................. 57
5.2 Recommendations for Future Study ......................................................................... 58
Reference ........................................................................................................................ 59
APPENDIX A ................................................................................................................ 64
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LIST OF FIGURES
Figure 2.1: Peninsular Malaysia and East Malaysia ....................................................... 18
Figure 2.2: Pulau Ketam Area on Google map .............................................................. 25
Figure 2.3: Residence Zone of Pulau Ketam .................................................................. 26
Figure 2.4: Study Area on Pulau Ketam ......................................................................... 26
Figure 3.1: A Sketch for Research Design ..................................................................... 36
Figure 4.1: Dustbin Provided by Waste Collection Company ....................................... 42
Figure 4.2: Cargo Ship for MSW Used by Waste Collection Company ........................ 43
Figure 4.3: Recycling Point of NGO .............................................................................. 43
Figure 4.4: Inert Waste landfill, Pulau Ketam ................................................................ 44
Figure 4.5: Temporary Disposal Sites ............................................................................ 45
Figure 4.6: Trash Dumping on The Island ..................................................................... 46
Figure 4.7: Private Recycling Point ................................................................................ 48
Figure 4.8: Comparing Dustbins .................................................................................... 51
Figure 4.9: Carts for Waste Collection ........................................................................... 51
Figure 4.10: Composting Bins ........................................................................................ 54
Figure 4.11: Penalty for Litter and Burning Rubbish ..................................................... 55
Figure 4.12: Legal Recycling Station in Malaysia ......................................................... 56
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LIST OF TABLES
Table 2.1: General Sources of Municipal Solid Wastes ................................................... 8
Table 2.2: Composition of MSW in KL ......................................................................... 10
Table 2.3: Waste generation in Peninsular Malaysia ..................................................... 21
Table 2.4: Generation of MSW in major urban areas in Peninsular Malaysia ............... 21
Table 2.5: Composition of MSW in Malaysia ................................................................ 22
Table 2.6: MSW Disposal Methods in Malaysia ............................................................ 23
Table 2.7: Types and number of disposal site in Malaysia ............................................ 23
Table 2.8: Information on GDP, waste quantity and composition ................................. 29
Table 2.9: Solid waste programs in the developed economies in Asia .......................... 30
Table 3.1: Observation Ways ......................................................................................... 39
Table 4.1: MSW Collection System on Pulau Ketam .................................................... 42
Table 4.2: MSWM Features in Kamikatsu and Pulau Ketam ........................................ 49
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LIST OF SYMBOLS AND ABBREVIATIONS
MSW: Municipal Solid Waste
MSWM: Municipal Solid Waste Management
IWM: Integrated Waste Management
C2C/C2G: Cradle-to-Grave
CAD: Controlled Anaerobic Digestion
CRC: Centralized Refuse-Chute System
3R: Reduce, Reuse, and Recycle
LCA: Life Cycle Assessment
GDP: Gross Domestic Product
ABC Plan: Action Plan for a Beautiful and Clean Malaysia
OPP3: The Third Outline Perspective Plan
NRP: The National Recycling Program
ICM: Integrated Coastal Management Program
NGO: Non-Governmental Organization
DONSWM: Department of National Solid Waste Management
SWPCMC: Solid Waste and Public Cleansing Management Corporation
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CHAPTER 1: INTRODUCTION
1.1 Overview
Municipal solid waste (MSW) has been a major problem in all the countries, especially
in developing countries. In these countries, due to industrialization and improving living
standards, the generation of MSW is increasing rapidly. However, they only have limited
resources and technologies for MSW treatment and disposal, and also lack of enforcement
for relevant regulations in municipal solid waste management (MSWM), especially on
safety disposal and recycling (Chen, Geng, & Fujita, 2010).
Besides, MSW can harm human health in many ways, and also pollute the environment,
including atmosphere, hydrosphere, and pedosphere. Moreover, the ecological balance is
destroyed at an alarming rate. However, if MSW could be treated in a right way, they will
be a part of the resource for human society and reduce the environmental burden.
Hence, to manage MSW, and find a way which can save the resource, reduce waste, and
achieve development, become critical. Therefore, sustainable development has been
proposed in 1987, to protect the environment while implementing development (Jalil,
2010). Nowadays, sustainable management of MSW become an area of growing concern
in Malaysia islands, due to the inefficient collection and unacceptable disposal of MSW
already caused serious marine pollution, and harmed the marine system. (Pariatamby &
Periaiah, 2010).
In 2009, more than 23,000 tonnes of waste were produced per day in Malaysia. This
quantity increases every year and illustrates a linear increase. As the population growth
and economic development, the amount of MSW is expected to 30,000 tonnes in the year
2020. Unfortunately, less than 5% of the MSW is recycled at present (Kumar et al., 2009).
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Solid wastes have become one of the main environmental problems in Malaysia. There
are several reasons for this condition. First one is that the documents of MSW
composition and generation rates are not enough and out of date. The second one is
inefficient storage and collection systems. Then, residents drop the MSW and hazardous
waste together, as there is no solid waste segregation. Next one is the inefficient
utilization of disposal site space. Last, the government management for MSW is not
enough so MSW is discarded, indiscriminately (Global Environment Centre, 2016;
Kumar et al., 2009).
In Malaysia, landfilling is the only way used for MSW disposal, and most of these landfill
sites are uncovered, which can raise the risk of environmental and social issues (Saheri,
Aghajani, Basri, Mahmod, & Begum, 2011; Yunus & Kadir, 2006). Landfills can deal
with approximately 98% of the total MSW. For this method, the main problem is difficult
to extend the service life of the landfill. Due to land scarcity, Malaysia, with rapid
development, will need a better and more efficient strategy for MSW, urgently (Manaf,
Samah, & Zukki, 2009).
Actually, the Malaysia government has made efforts to increase the efficiency of landfill
sites. According to Action Plan 1988, there are 4 levels for improvement (Huri bin
Zulkifli, 1993):
Level 1: Controlled dumping
Level 2: Sanitary landfill with daily cover
Level 3: Sanitary landfill with leachate circulation
Level 4: Sanitary landfill with leachate treatment
Additionally, more than 50% of MSW budget is spent for waste collection system at
present, but only 76% of total wastes were collected. The government lacks financial aid
and technical for MSWM.
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Therefore, Malaysian government made a new structure, whereby MSWM was privatized
in 1996. Under the Ministry of Housing and Government, Department of National Solid
Waste Management (DONSWM) and Solid Waste and Public Cleansing Management
Corporation (SWPCMC) have been set up. DONSWM becomes a regulatory body, then
SWPCMC conducts operations. According to (Manaf et al., 2009), “the corporation
would take over the role of managing MSW from local authorities and watch over the
concessionaires. However, local authorities would continue to monitor cleanliness in
areas under their jurisdiction”. Now, there are 3 solid waste concessionaires that have
their own operation zones, they are Southern Waste Management for southern regions;
Alam Flora Sdn Bhd for central regions; and Idaman Bersih Sdn Bhd for northern regions
(Manaf et al., 2009).
The MSW situation of islands in Malaysia, under the new structure of MSWM, also began
to change. Pulau Ketam is one of them. According to the research “Solid waste
management in Pulau Ketam - Alam Flora's experience”, this island used to be a "foul
stench island", as it without any cleaning program or MSWM over 100 years (Yaacob,
2004). Garbage is still dropped indiscriminately onto the ground as well as into the sea.
But, things have been changed in October 1999. Alam Flora's proposal about MSWM has
been approved by the Selangor government, and then they gave the company the
responsibility. According to the report, there has been improved in the MSWM area, since
2000. Now, the islanders on Pulau Ketam are trying to create a new culture of MSWM
instead of "throw away culture" (LUAS/SWMA and Port Klang Project Management
Office, 2006; Yaacob, 2004).
Since the MSWM began on this island, Alam Flora organized some public talks,
community cleaning to grow environmental awareness and to encourage proper MSW
disposal among locals. Besides that, dustbins with wheels are now found in the village.
The collected MSW will be shipped to Klang 4 times per week, then the rubbish will be
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treated by landfilling. Although these measures already helped Pulau Ketam to change its
reputation, dumping MSW still happens because there are not enough dustbins.
“It is difficult getting people to stop throwing things into the sea. Their families have been
doing this for over 100 years”, said Mr. Chia Mong Chun, the Pulau Ketam village head.
Furthermore, increasing the number of dustbins will need more workers to push them to
the jetty.
1.2 Problem Statement
Disposing MSW from Pulau Ketam costed RM1,000 per ton because of transportation
fee, but for those in mainland only needed RM150 (Li, 2005). Currently, economic
development makes the amount of MSW is increasing. Hence, the price for shipping
MSW from Pulau Ketam to Klang does not decrease. Shipping the waste to the mainland
cannot be a long-term solution for Pulau Ketam, especially if the number of waste
increasing significantly, the shipments would be more expensive.
The incinerator is a choice for MSW disposal, but this method needs efficient gas-
cleaning systems. Currently, there are some islands using incinerator, namely Tioman,
Langkawi, Pangkor, and Labuan. However, the result is not well, due to technical
problems. On these islands, the incinerators almost like burners. Composting can be
another choice, as the composition of MSW is typically 50% organic. Particularly, the
villagers can dispose of organic wastes individually through household composting bins
(Li, 2005).
Nowadays, although the facilities are limited, most villagers are willing to separate their
waste. Hence, there is a little recycling on this island. More or less, the number of MSW
on Pulau Ketam could be reduced, which is benefit for shipping and landfilling.
Clearly that the MSW situation in Pulau Ketam has changed, since 2000. An awareness
program conducted by Alam Flora was enacted in this year. But, it is not enough. On this
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islands, MSWM needs a more complicated and more effective method to implement
better development (Li, 2005).
In the past 16 years, the company for MSWM on the island has been changed from Alam
Flora to Umi Kasmah Enterprise. Most islanders agree that solid waste management is
necessary. However, the problem of solid waste disposal still exists in Pulau Ketam. This
study will focus on the current situation of MSWM in Pulau Ketam. The ecosystems in
this island are easy to be affected by human activities and unsustainable development
because this is a mangrove island (LUAS/SWMA and Port Klang Project Management
Office, 2006). Hence, it is important to manage MSW in a sustainable way, in this island.
This project will identify what are the issues of current MSWM system in Pulau Ketam,
as well as propose viable suggestions to overcome these issues.
1.3 Aim and Objectives of Study
This study aims to implement sustainable MSWM in Pulau Ketam, by analyzing the
current situation of MSWM system, and proposing sustainable solutions on the island.
The objectives of the study are:
a. To analyze the current issues of municipal solid waste management in Pulau Ketam,
b. To compare the existing municipal solid waste management system practices with
other islands in Asia,
c. To suggest solutions in overcoming municipal solid waste management issues in
Pulau Ketam.
1.4 Scope of Study
This research will focus on how to manage MSW in a sustainable way, in Pulau Ketam.
The MSWM in Pulau Ketam is compared to other Asian islands, such as Hong Kong,
Singapore, and Japan. Among them, MSWM in Japan is the major experience that can
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help Pulau Ketam to manage MSW in an efficient sustainable way. Finally, some
improvement suggestions for MSWM in a sustainable way are proposed in the report.
1.5 Organization of Thesis
This report shows the issues of the MSWM system in Pulau Ketam, by analyzing current
MSWM situation. Then, after comparing with the cases in other Asian islands, some
sustainable solutions are suggested to improve MSWM system on this island.
The organization of this thesis is as follows.
Chapter 2 is literature review part. This part introduces the information of MSW and lists
the methods of MSWM. Then, the MSWM situation in Malaysia and Pulau Ketam both
were mentioned in detail. The last section in Chapter 2 is focusing on reviewing other
MSWM examples in Asian islands, including Hong Kong, Singapore, and Japan.
Chapter 3 is the methodology of this study. This part describes how the study proceed. It
is linked back to chapter 2 to explain the academic basis of research, and the methods for
gathering information.
In Chapter 4, the results and discussion part, illustrates the current problems of MSWM
in Pulau Ketam, and discusses the reasons which lead to these issues. And also, in
discussion part, the relevant solutions are provided, respectively.
Chapter 5 is conclusion and recommendation part. This part expounds a comprehensive
summary of findings. Then, the brief, clear, precise recommendations are proposed.
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CHAPTER 2: LITERATURE REVIEW
2.1 Introduction
MSWM is one of the most popular research topics in the world. This topic includes the
information of MSW and management system. The concepts of MSW are including
definition, sources, category, characteristics, and composition. The management system
basically consists of collection and storage, transportation, disposal, as well as policies.
To design an MSWM system needs considering the generation, policies, economic
condition and social factors in the different area.
As this study is an investigation of MSWM in Pulau Ketam, the literature review is
focusing on the information of MSW, the current situation of MSWM system in Malaysia,
and the brief cases in Hong Kong, Singapore, and Japan. In addition, this literature review
will not include concepts of hazardous waste, nor MSWM in East Malaysia. The MSWM
system in Pulau Ketam will only focus on residence zone.
The literature review findings will contribute to identify the problems of MSWM in Pulau
Ketam. And also, the solutions which can improve the MSWM system in a sustainable
way will be proposed.
2.2 Municipal Solid Waste
Municipal Solid Waste (MSW), typically referred to as rubbish or garbage, involves day-
to-day items we used and then discarded, such as yard waste, product packaging, clothing,
various bottles, food wastes, paper, e-waste, batteries, furniture, and so on. This kind of
originates from our living place and any workplace (USEPA, 2016).
2.2.1 Source and Category of Municipal Solid Waste
MSW sources can be identified as living garbage which including residential,
commercial activities; industrial and mining solid waste which including
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industrial, mining, construction, manufacturing, treatment facilities; and other
solid wastes, like agricultural, breeding, forestry, etc. (Tchobanoglous, 2009).
These sources can be typically list as Table 2.1.
Table 2.1: General Sources of Municipal Solid Wastes (Tchobanoglous, 2009)
Source Classification Facility/Activity/Lo
cation Waste
Living Garbage
Residential Families, Dwellings,
Apartments, etc.
Food wastes, papers,
plastics, yard wastes,
glasses, cans, metals,
electronics, batteries,
oil, household
hazardous wastes,
old tires, etc.
Commercial services
Stores, restaurants,
markets, office
buildings, hotels,
motels, print shops,
service stations and
auto repair shops
Paper, cardboard,
plastics, wood, food
wastes, glass, metal
wastes, ashes,
hazardous wastes,
etc. Institutional
Schools, hospitals,
governmental
centers, etc.
Industrial and
Mining Solid
Wastes
Industrial (treated &
untreated)
Demolition,
manufacturing,
chemical and power
plants, construction
wastes, etc.
Papers, plastics,
woods, glass, metal
wastes, ashes, steel,
concrete, hazardous
wastes, etc.
Other Solid Wastes
Treatment facilities
Street cleaning,
landscaping, parks,
beaches, other
recreational areas
wastewater,
industrial treatment
processes, etc.
Special wastes,
rubbish, street
sweepings, tree
trimmings, treatment
plant wastes, sludge,
and other materials,
etc.
Construction Build process,
demolition process
woods, glass, metal
wastes, ashes, steel,
concrete, hazardous
wastes, etc.
Agricultural,
breeding, forestry
Field, row crops,
orchards, dairies,
feedlots, zoos, etc.
Spoiled food wastes,
agricultural wastes,
rubbish, animal
wastes, hazardous
wastes
2.2.2 Characteristics of Municipal Solid Waste
Composition, quantity, and specific weight are important characteristics of solid
wastes (Tchobanoglous, 2009).
a) Composition, including food waste, paper products, plastics, metals, glass,
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and ceramics, etc., each of them should be studied and weighed. The
composition of MSW is affected by people’s habits, education, and economic
status, commercial and industrial types, location, and so on.
b) Quantity, the number of solid wastes generated and collected by one
person/day. According to Franklin Associates (in 1999, yearly updates), “the
amount of municipal solid waste collected is estimated to be 6lb/people/day,
among them, about 3.5lb is living garbage and this figure will increase yearly,
in the USA”. To expect the quantity of MSW can help for making MSWM
system, especially in preliminary planning and feasibility assessment.
c) Specific Weight (unit weight), a weight per unit volume of a material, and also
affect the systems of transportation, as well as the land area of disposal. This
figure is affected by a set of conditions, including the number of solid waste
containers, containers’ size and type, water content, collection cars, and
stations to transfer.
2.2.3 Composition of Municipal Solid Waste
Normally, solid wastes including all solid wastes caused by society, and those
from medical, radioactive, industrial activities, agricultural producing, water
treatment systems (sewage sludge), or other treatment systems are defined as
hazardous wastes (Ven Te Chow, 1997). However, the definition of MSW will
not include hazardous waste.
The composition of municipal solid waste (MSW) changes significantly with time
and countries. In countries that have a developed waste recycling system, the
waste stream mainly consists of intractable wastes like unrecyclable packing
materials and plastic. Those without developed recycling system, solid waste
usually includes yard wastes, food waste, plastic and packaging materials, and
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others from residential, commercial, institutional, and industrial sources (Herbert,
2007).
As an example, the composition of MSW in Kuala Lumpur, in the year 2004, is
shown in Table 2.2.
Table 2.2: Composition of MSW in KL (Kathirvale, Yunus, Sopian, &
Samsuddin, 2004)
Source High-
income %
Medium-
income %
Low-
income %
Commercial
%
Institutional
%
Food 30.84 38.42 54.04 41.48 22.36
Mixed
paper
9.75 7.22 6.37 8.92 11.27
Corrugated
paper
1.37 1.75 1.53 2.19 1.12
Newsprint 6.05 7.76 3.72 7.13 4.31
High-grade
paper
0 1.02 0 0.35 0
Plastic 26.21 20.04 11.66 17.18 19.50
Diapers 6.49 7.58 5.83 3.80 1.69
Rubber 0.48 1.78 1.46 0.80 2.07
Textile 1.43 3.55 5.47 1.91 4.65
Wood 5.83 1.39 0.86 0.96 9.84
Yard waste 6.12 1.12 2.03 5.75 0.87
Glass 2.75 4.09 1.30 4.72 0.62
Aluminum 0.34 0.08 0.39 0.25 0.04
Ferrous 1.93 3.05 2.25 2.47 3.75
Non-ferrous 0.17 0 0.18 0.55 1.55
Hazards 0.22 0.18 0 0.29 0.06
Fine 0 0.71 2.66 0 0.39
Others 0.02 0.27 0.25 1.26 16.02
Total 100 100 100 100 100
2.3 Municipal Solid Waste Management (MSWM)
Management of MSW is a complicated procedure. An MSWM system needs a lot of
technologies and theories to support. These are including source reduction, on-site
handling and storage, collection, transportation, and disposal (Tchobanoglous, 2009).
To protect the human health is the first target of MSWM. MSWM also aims to improve
environmental quality, to supply support for economic productivity, and finally to
implement sustainable development. In order to reach these goals, the local government
must cooperate with related sectors to establish sustainable MSWM systems. Although
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compared with industrialized countries, the quantity of MSW generated in developing
countries is lower, the MSWM still remains inadequate (Henry, Yongsheng, & Jun, 2006).
Operating the MSWM system needs proper policies, infrastructures, maintenance, and
upgrade. Moreover, with the speeding up of urbanization process, the MSWM becomes
more and more expensive and complex (Mor, Ravindra, De Visscher, Dahiya, & Chandra,
2006; Sharholy, Ahmad, Mahmood, & Trivedi, 2008).
2.3.1 Solid Waste Collection and Storage
2.3.1.1 Collection
In MSWM, the way of collection depends on the disposal method. As the first
step of MSWM system, the collection systems must be designed carefully because
the cost of collection will take a large proportion of the total cost of MSWM
system. A collection service of MSW needs to based on the community program.
Typically, MSW collection is used for mixed waste and source-separated wastes.
In addition, there are other collection services be provided for special waste, such
as annual or semi-annual collections for e-waste, tires, oils, yard wastes, glass,
plastic bottles, and so on.
The plan of collection frequency depends on the quantity of MSW per year, the
local environment, and economic conditions, and also the municipal responsibility.
Usually, in business areas or places with warm weather, the collection will be once
a week. Moreover, most cities also set the programs for the household hazardous
waste collection, normally every three months (Tchobanoglous, 2009).
2.3.1.2 Storage
Storage of MSW actually is lacking in most of the cities. The dustbins are not
performed waste segregation, and then the waste is disposed at a public place.
Storage dustbins can be classified into 2 kinds, movable and fixed. The movable
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bins are easy to transport, but they lack durability. On the contrary, the fixed bins
are more sustained but fixed positions (Nema, 2004)
2.3.2 Transfer of MSW
The transportation of MSW is needed, to implement the requirements of health,
safety, and environmental (Hagerty, Pavoni, & Heer, 1973). The collected MSW
from the dustbins, collection points, and storage stations will be transported to
disposal sites by carrier vehicles. The distances to disposal sites would decide the
size of collection vehicles. For example, if it is a long distance to disposal sites,
the MSW in small collection vehicles would be transferred to a larger one. It is
also critical to scheme the timetable between the collection areas and the final
disposal area.
According to the transport vehicles using the method, the transfer stations can be
classified into 3 types (Tchobanoglous, 2009):
1) Direct Discharge: normally used in the small communities. The wastes in the
collection vehicles are emptied directly into the transport vehicle, then
transport them to the final disposal area.
2) Storage Discharge: useful for the large communities. Firstly, the wastes are
emptied into the storage area by auxiliary equipment. Then will be transferred
to the final disposal sites.
3) Combined with storage and direct Discharge: in some transfer station, both
methods are used to serve a broad range of users.
2.3.3 Disposal methods
2.3.3.1 Sanitary Land Filling
Landfilling can be considered as one of the major methods of MSW disposal in
the world, due to the less cost and more simple operation. In principle, reuse or
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recycling the waste will be better than landfilling, but landfilling will not increase
the unacceptable impacts to the environment, or hazards to health.
As the increasing number of MSW generation, landfilling need a large area of
land. Therefore, it cannot be used in all countries, especially those short of land
resources. For example, in North America, most of MSW, currently produced,
will be landfilled. However, some European countries, such as Germany,
Denmark, are using incinerators for handling a large number of MSW, and the ash
from the process will be used for building roads or similar purposes (Hjelmar,
1996).
2.3.3.2 Incineration
The process of incineration is quite different in countries, as different
environmental and economic factors. This method usually can be used in countries
which don’t have enough space for landfilling, such as Japan, Switzerland, France,
Germany, etc. Some of them already passed the laws to prohibit future landfilling
of combustible waste (Butz, 1997). Therefore, incineration will become
increasingly important. This way can reduce almost 90% of the amount of MSW,
and it allows to recover lots of the energy through the process. But, combustion
and air pollution control residues are produced, these products subsequently were
utilized or landfilled (Hjelmar, 1996).
Incineration normally is used in developed countries, because to design and built
an incinerator needs a lot of technologies and funding. The humidity and
temperature also are the problems faced by the process. If cannot meet the
technical requirements of incineration, the disposal process would become
burning, and produced a large number of hazardous substances which can cause
secondary pollution.
2.3.3.3 Biological Treatment
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Biological treatment can be divided into two categories, one is composting,
another one is controlled anaerobic digestion (CAD). Among, CAD needs a high
level of technical knowledge. Therefore, in developing countries, they would not
choose CAD for MSW disposal (The World Bank, 2012). As Malaysia is a
developing country, CAD will not be described in detail.
2.3.3.4 Composting
Composting can be used with a low demand of technology, and quite economic.
As food waste is the most component of MSW, composting has been used in lots
of cities (Otten, 2001). This method aims to change organic solid wastes into
products with low-cost, and these products can be applied in agriculture. The
conditions about economic and environment, both can affect the use of
composting, for instances, the capacity of landfilling, costs of landfilling and
transportation, and the government policies. In addition, using composting can
decrease the use of commercial fertilizers (Hargreaves, Adl, & Warman, 2008).
2.4 Sustainable Methods of MSWM
Although, in different countries, the strategies and definitions of waste management are
substantially different, it’s also a critical issue of obtaining certain goals and objectives.
The methods of waste management cannot be totally same because they cannot deal with
all potential wastes in a sustainable way by the individual. Hence, methods must also vary
appropriately to make certain that these circumstances can be successfully achieved. Solid
waste management systems need to remain flexible as the changing economic,
environmental and social conditions. In many cases, MSWM can be carried out by a lot
of processes, lots of them usually are related. For this reason, it is better to design integral
waste managing systems than the alternative and competing options (Staniskis, 2005).
A particular framework can help engineers solve the issues of MSWM, in an efficient
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way, and improving the existing designs (McBride, 1995). It provides: flexible frame and
analysis for quantitative and qualitative information in different scopes; clearly structures
to identify major goals; logical consider options related to probability and results; clearly
communicate with key ideas (Scharfe, 2010).
2.4.1 Integrated Waste Management
According to UNEP, Integrated waste management (IWM), has been known as “a
frame of reference for designing and implementing new waste management
systems and for analyzing and optimizing existing systems” (UNEP, 2009). This
concept means to manage MSW by using appropriate technologies and
management programs to reduce the number of MSW or achieve other goals
(McDougall, White, Franke, & Hindle, 2008; UNEP-IETC, 1996).
In addition, IWM is comprised of some systems and functions. Therefore, to
manage MSW in a sustainable way cannot use the individual method to disposal
MSW. IWM systems are used in different places, but still, have some common
characteristics. Firstly, to use a comprehensive way to analysis the total
environmental problems and economic costs of the program, and to use a range
of collection and treatment facilities to produce less waste. Secondly, to handling
all materials in the solid waste rather than only focus on specific materials. Next,
be environmentally friendly, like reducing the pollutant emission, and
economically. Last but not least, increasing public corporation and ensuring
workers can understand their job in the waste management (McDougall et al.,
2008).
2.4.2 Minimization of Wastes
Waste minimization is different with reducing waste, but it will be implemented
by reducing waste. To reduce the generated MSW can be implemented in many
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ways, the most effective way to reduce waste is controlling the sources
(Bandyopadhyay, 2015).
Therefore, 3R (reduce, reuse, and recycle) was proposed by W. M. S. Russell and
R. L. Burch, in 1959. This concept has become a guide which is widely used in
sustainable MSWM (Tudor, Robinson, Riley, Guilbert, & Barr, 2011). It can help
to implement minimization of wastes, at the same time, it can help to maintain
public health, to protect the environment better, and to implement resource
conservation & recovery (Memon, 2010).
Waste minimization means to redesign goods or to change the pattern of products’
life cycle to prevent the waste generation and minimize the hazardous wastes
(Cheremisinoff, 2003). It will save the use of resources in the manufacturing
processes for producing new products; reduce the amount of waste generated from
product disposal; decrease the costs of waste disposal (Chiu, 2010). In addition,
in many cases, the wastes can be recycled and become useful new materials, such
as glass, papers, etc. By the way, to recycle the products can reduce the usage of
new material, waste generation, and the disposal costs (Memon, 2010).
2.4.3 Zero Waste
Zero waste means that managing wastes and designing approaches to prevent
waste generation, it focuses on through a series of recycling, reuse methods, such
as reconstruction production and distribution systems, to decrease waste and,
moreover, do not produce waste (Spiegelman, 2006). As limited conditions
(technology, costs, etc.), it’s hard to eliminate waste completely, but zero waste,
as a guide, provides principles for eliminating waste (Snow & Dickinson, 2001).
In other words, zero waste is focusing on eliminating waste at the beginning. This
concept needs heavy supports from government and industries. And it won’t be
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possible without great efforts and actions from industry and government (Connett
& Sheehan, 2001). Industries will control the design of product and packaging,
processes of manufacturing, and the selections of material (Townend, 2010).
Meanwhile, governments need to provide policy and funding for developing and
adopting IMW strategies that aim to eliminate waste rather than manage it (Snow
& Dickinson, 2001).
2.4.4 Cradle-to-Grave
Cradle-to-Grave (also known as Cradle to Cradle, C2C) is an approach used to
describe the flow of materials from raw resources to wastes which require disposal.
C2C focuses on industrial systems design which means material flow in a closed
loop cycle, and waste goods can be recycled and reused.
Perfectly, C2C, like the biological metabolism of an ecosystem, aim to design a
metabolism of the process which is a closed-loop system with resources traveling
in cycles of producing, using, recovering and remanufacturing. It means that the
system can be designed to use available wastes and to imitate the natural processes
in biological systems (McDonough & Braungart, 2010).
2.4.5 Life-Cycle Assessment (LCA)
According to USEPA document Life Cycle Assessment: principles and practice,
LCA is used to evaluate environmental impacts of products, processes or service,
such as C2C (Curran, 2006). In order to solve issues that cannot be conducted by
other environmental management tools, such as statutory environmental impact
assessment, LCA is necessary. LCA can be described by 4 associated phases, they
are goal and scope definition, Inventory analysis, impact assessment, and
interpretation.
In many types of research, LCA has been used as an effective environmental
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management tool. For instance, LCA can be used to reduce the VOC content of
paint in the paint industry. It also can be used to decrease the environmental
burdens caused by the used automotive batteries. Moreover, LCA can assess
different conditions of municipal wastewater treatment, as well as inspects the
potential risk to the environment and human health (Özeler, Yetiş, & Demirer,
2006).
2.5 Current Situation of MSWM in Malaysia
Malaysia as a tropical country which located in the Southeast Asia has 329,847 km2 land,
figure 2.1 shows Peninsular Malaysia and East Malaysia in google maps. This country is
surrounded by Thailand, Singapore, Indonesia, and the Philippines. The climate in
Malaysia is warm and humid all the year, the temperature and humidity range from 21℃
to32℃ and 80% to 90% respectively (Manaf et al., 2009).
Source from google maps
Figure 2.1: Peninsular Malaysia and East Malaysia
2.5.1 Policies in Malaysia
According to Section 72 of the Local Government Act 1976, MSWM in Malaysia
is under the responsibility of the local authority. Based on this act, public clean
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services for both urban and semi-urban communities will be provided by the local
authority. Also, the local authority must handle of all the collected waste in a
sanitary way. There are another 3 related policies, list as the Site, Drainage and
Building 1974, Local Government Act 1976, as well as Town and Country
Planning 1976. The penalties are tight, for whom did the illegal dumping, storage,
or treatment is subject to a fine of between RM 10,000 and RM 100,000 and a jail
sentence of up to five years.
In addition, by the implementation of Solid Waste and Public Cleansing Act 2007,
the road of MSWM privatization is paved. The sources of managed MSW in this
Act are including public areas, commercial centers, construction places, industrial
zones, households, and so on. In addition, the act clearly mentioned that MSWM
services need to include separation, collection, storage, transportation, processing,
recycling, and disposal (Manaf et al., 2009).
Also, it is worth mentioning that the Action Plan for a Beautiful and Clean
Malaysia (ABC Plan) was enacted in 1988, with the aim to make a consolidated
MSWM system by 2020. And this system needs to be accepted by environment
and society, in Malaysia. However, this was not an official plan, has not been
implemented. Even, the recycling program, which is introduced in ABC Plan, was
not formulated until 1993. Then, Vision 2020 for Malaysia was declared in 1990,
it said that Malaysia will become a fully developed country by the year 2020, as
well as pursue environmentally sustainable development.
Under Vision 2020, in the second decade, the development focused on reducing
the energy, materials, pollution and waste intensity of urban and industrial
activities. The Third Outline Perspective Plan (OPP3) has been set up during this
period, from 2001 to 2010. In OPP3, it introduced the policy of IWM, highlighted
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the issues of waste reduction, reuse and recycling (3R) (Abas & Wee, 2014a; Moh
& Abd Manaf, 2014).
Malaysia has provided a mechanism for effective policy implementation to
promote sustainable MSWM. However, there is a common problem that the result
of the adoption of the policies is not equal. For instance, the Solid Waste
Management and Public Cleansing Act (Act 672) has brought great changes in
solid waste management in Malaysia. However, the implementation of policy on
solid waste management looks like feeble and doubtful which not goes like its
planning (Abas & Wee, 2014a).
Actually, to promote the effectiveness of MSWM policy, the legislation should
involve the role of producers, customers, management and whoever that will
generate the solid waste. Moreover, for the environmental problem caused by
ineffective MSWM, the producers and customers are both have a responsibility to
deal with. It is not possible that to implement a successful MSWM program
without good governance. And good governance needs all related parts, such as
NGOs, private sectors, committees and local authorities, cooperation with each
other (Abas & Wee, 2014b).
2.5.2 MSW Generation
For an MSWM system, it is very important to get the data about the quantity of
MSW generation (Tchobanoglous, Theisen, & Vigil, 1993). The studies about this
figure usually based on the quantity of collected waste and landfilling disposal.
The demographic factors and processing facilities can both affect the rate of MSW
generation. In table 2.3, the relationship between the demographic factor and
MSW generation in Peninsular Malaysia is shown (Manaf et al., 2009).
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Table 2.3: Waste generation in Peninsular Malaysia (tons/year), from Ministry
of Housing and Local Government 2003 statistics (Manaf et al., 2009)
States Population
(2000)
Waste
generate
d (2000)
Population
(2001)
Waste
generated
(2001)
Population
(2002)
Waste
generated
(2002)
Kuala
Lumpur
1400,000 2520 1435,000 2635 1470,875 2755
Selangor 3325,261 2826 3408,393 2955 3493,602 3090
Johor 2252,882 1915 2309,204 2002 2366,934 2093
Kedah 1557,259 1324 1596,190 1384 1636,095 1447
Kelantan 1216,769 1034 1247,188 1081 1278,368 1131
Penang 1279,470 1088 1311,457 1137 1344,243 1189
Perak 1126,000 1527 1841,489 1597 1887,527 1669
Pahang 1126,000 957 1154,150 1001 1183,004 1046
N. Sembilan 890,597 757 912,862 791 935,683 827
Melaka 605,361 515 620,495 538 636,007 562
Perlis 230,000 196 235,750 204 241,644 214
Terengganu 1038,436 883 1064,397 923 1091,007 965
In Malaysia, as the growth of population, the generation of MSW also illustrates
an increase. The average amount of MSW generated in Malaysia was 0.5~0.8
kg/person/day, in the year 2003. Furthermore, in major cities, such as Kuala
Lumpur, this figure reached to 1.7 kg/person/day (Kathirvale et al., 2004). As
table 2.4 shows, the MSW generation of major cities in Malaysia illustrated an
increase from the year 1970 to 2006
Table 2.4: Generation of MSW in major urban areas in Peninsular Malaysia
from 1970 to 2006 (Periathamby, Hamid, & Khidzir, 2009)
Urban center Solid waste generated (tons/day)
1970 1980 1990 2002 2006 1970
Kuala Lumpur 98.9 310.5 586.8 2754 3100 98.9
Johor Bahru (Johor) 41.1 99.6 174.8 215 242 41.1
Ipoh (Perak) 22.5 82.7 162.2 208 234 22.5
Georgetown (Pulau Pinang) 53.4 83 137.2 221 249 53.4
Klang (Selangor) 18 65 122.8 478 538 18
Kuala Terengganu (Terengganu) 8.7 61.8 121 137 154 8.7
Kota Bharu (Kelantan) 9.1 56.5 102.9 129.5 146 9.1
Kuantan (Pahang) 7.1 45.2 85.3 174 196 7.1
Seremban (Negeri Sembilan) 13.4 45.1 85.2 165 186 13.4
Melaka 14.4 29.1 46.8 562 632 14.4
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To design an MSW disposal system, the characteristics of MSW components are
also important.
According to a conference proceeding, in most Asian countries, most of MSW
consists of plastics, food waste, agriculture waste, yard waste, paper,
rubber/leather, glass and textiles, metal, and so on (Visvanathan, Tubtimthai, &
Kuruparan, 2004; Zamali, Lazim, & Osman, 2009). Table 2.5 shows the different
data about the MSW composition in Malaysia, from1975 to 2005.
Table 2.5: Composition of MSW (percentage of wet weight) in Malaysia
from 1975 to 2005 (Periathamby et al., 2009)
Waste
composition
1975 1980 1985 1990 1995 2000 2005
Organic 63.7 54.4 48.3 48.4 45.7 43.2 44.8
Paper 7 8 23.6 8.9 9 23.7 16
Wood 6.5 1.8 NA NA NA 0.7 6.7
Metal 6.4 2.2 5.9 4.6 5.1 4.2 3.3
Plastic 2.5 0.4 9.4 3 3.9 11.3 15
Glass 2.5 0.4 4 3 3.9 3.2 3
Textiles 1.3 2.2 NA NA 2.1 1.5 2.8
Others 0.9 0.3 8.8 32.1 4.3 12.3 8.4
NA: not available
Based on these data, the main component of MSW is the organic waste. According
to (Samah et al., 2013), in Selangor state, the organic waste accounts for
approximately a half of the total MSW, at 46%. The plastics and paper share
similar percentages of the total MSW, at 15% and 14%, respectively (Samah et
al., 2013; Sh, Simon, & Agamuthu, 1970).
2.5.3 Disposal System of MSW in Malaysia
2.5.3.1 Landfilling
Currently, landfilling is the main method used for the MSW disposal in Malaysia.
Shown in table 2.6, in Malaysia, landfilling is the major way for MSW disposal.
However, most of the landfill sites are not for sanitary landfilling, they are open
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dumping areas. These are serious threats to the environment and human health in
Malaysia (Saheri et al., 2011; Yunus & Kadir, 2006).
Table 2.6: MSW Disposal Methods in Malaysia (Periathamby et al., 2009)
Treatment Percentage of waste disposal (%)
2002 2006 2020 (Target)
Recycling 5 5.5 22
Composting 0 1 8
Incineration 0 0 16.8
Inert landfill 0 3.2 9.1
Sanitary landfill 5 30.9 44.1
Other disposal sites 90 59.4 0
Total 100 100 100
As Table 2.7 shows, in the year 2001, there were totally 155 disposal sites under
the responsibility of local authorities, their sizes were ranging from 8 to 60
hectares. The size of disposal sites is depending on the amount of disposing MSW
and the location (M. Hassan, Awang, Afroz, & Mohamed, 2001; Wan & Kadir,
2001). Most of them the capacity already overloaded.
Table 2.7: Types and number of disposal site in Malaysia, 2001 (Wan & Kadir,
2001)
State Open dumping Controlled
dumping
Sanitary
landfill Total
Perak 15 11 4 30
Johor 12 14 1 27
Kelantan 12 2 0 14
Kedah 9 5 1 15
Negeri
Sembilan
8 6 0 14
Pahang 7 5 3 15
Selangor 5 15 0 20
Melaka 2 3 0 5
Terengganu 2 8 1 11
Pulau Pinang 1 1 1 3
Perlis 0 1 0 1
Total 73 71 11 155
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Recently, using landfilling for MSW disposal has become more and more difficult.
Most existing sites for landfilling are filling up at an alarming rate. In addition, as
the scarcity of land resource and the increasing land prices, to build a new landfill
site is also becoming more difficult, especially in urban areas (Manaf et al., 2009).
2.5.3.2 Recycling
To dispose of MSW mainly depends on the landfilling in Malaysia, and recycling
is another efficient way which can reduce the number of MSW for landfilling.
Malaysia has the potential to achieve the goal that the rate of recycling achieved
22% in 2020, but now the progress of recycling has to change to implement this
goal.
Before implementing a successful recycling program, Malaysia still needs a long
period to solve the main obstacles in existing system (M. N. Hassan, Rahman,
Chong, Zakaria, & Awang, 2000; Zamali et al., 2009).
The recycling program in Malaysia was started in 1993. In this ‘Reuse Program’,
there were 23 local authorities participated. Unfortunately, it failed because this
program did not promote any serious awareness program, and the management
level just made less commitment. In 2000, the government launched the National
Recycling Program (NRP), and at this time, there were 95 local authorities
participated in this program. The goal of this program is clear that to reduce the
generation of MSW by 3R (Reduce, Reuse, and Recycle) approach. The aim of
this program is reducing the MSW generation rate at least 22% by 2020. However,
because of missing technology, infrastructure and people’s attitude towards the
environment, the current percentage of recycling is 5% (Jamallulail, 2014).
2.5.3.3 Incineration
Malaysia has used the technique of incineration for a while, especially in
hazardous waste disposal. Furthermore, in some islands also use this method, such
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as Labuan, Tioman, Pangkor, and Langkawi. Also, to build the gasification and
liquidation ash incinerator plant has been planned in the government program.
Broga, Semenyih was the place chosen for constructing this plant. Then, this plant
can be used to dispose the MSW from Klang Valley. However, this project had
been terminated because the residents in Broga brought forward their complaints
to the court (Manaf et al., 2009).
2.6 Review of Pulau Ketam
2.6.1 Background Information
Pulau Ketam, as figure 2.2 shows, is a mangrove-covered island in Malaysia
which surrounded by mud flat area. It has 30 nautical miles distance from Port
Klang, and the total area of this island is about 22.921 km2 (LUAS/SWMA and
Port Klang Project Management Office, 2006).
Source from google earth
Figure 2.2: Pulau Ketam Area on Google map
Basically, there are two villages, as residence zone, on this island, namely Pulau
Ketam village and Sungai Lima village. As figure 2.3 shows, they are separated
by forest, and there is no road to link them. To date, the population of Pulau Ketam
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is approximately 6 to 7 thousand, the maximum part is Chinese, at 95%. Then, 4%
are Malay and 1% Indian ("Pulau Ketam," 2016). In this study, the study area is
Pulau Ketam village, shown in figure 2.4
Source from google earth
Figure 2.3: Residence Zone of Pulau Ketam
Source from google earth
Figure 2.4: Study Area on Pulau Ketam
As a mangrove island, Pulau Ketam is rich in natural resources. This is an
important habitat for flora and fauna, such as birds, mammals, fish, and so on.
Also, the mangrove is an important area for buffering against erosion.
Therefore, the local authority put this island under the Integrated Coastal
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Management (ICM) program, then the degraded mangrove of Pulau Ketam will
be replanted, and the area will be a forest reserve. The ecosystem function in this
island will be enhanced. Hence, it will promote the ecosystem restoration and eco-
tourism in Pulau Ketam (LUAS/SWMA and Port Klang Project Management
Office, 2006).
Currently, this island has become a tourist spot. The major economic activity on
the island is fishing. A lot of tourists come here for seafood, such as crabs, fishes,
and prawns.
2.6.2 History of MSWM in Pulau Ketam
In Pulau Ketam, the history of dumping into the sea can be traced back to the
1870s, the time for the first fisherman arrived. Until 1999, the Selangor state
government gave the responsibility to Alam Flora to manage solid waste in Pulau
Ketam (Li, 2005; Yaacob, 2004). The waste volumes on the island have changed
little over the years and now average 34 tonnes per month. Weekends see the
amount growing 1.5 times higher than weekdays, said by Mr. Mohd Zin Mohd
Sharif, assistant manager (operations) at Alam Flora Klang (Li, 2005).
According to “Solid waste management in Pulau Ketam - Alam Flora's
experience”, Alam Flora introduced and managed MSW, meanwhile, changed the
islanders’ mind, during the initial period. As a result, the residents already
changed their attitudes to accept and practice the MSWM. This change can be
attributed to a systematic solid waste service. Nowadays, the culture for the
conservation of natural resources has instead of the "throw away culture" on this
island, and the cleaner environment is conducive to the development of ecological
tourism (Yaacob, 2004).
Alam Flora provided a basic MSWM program which changed the condition of
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MSWM in Pulau Ketam as well as increased the islanders’ awareness on MSW.
Based on a news report in 2005, the company placed 70 proper dustbins with
wheels at central locations in the village. Then, shipping MSW to Klang 4 times
a week. They also provide low prices for recyclable waste collected by workers,
so that workers can sell the items to the company. Alam Flora also organized some
public events, like public talk, to increase residents’ awareness on MSW (Li,
2005).
On the other hand, as a part of the ICM program, the staffs from the Klang
Municipal Council and Selangor Waters Management Authority (SWMA),
promoted a series of visits to Pulau Ketam. They made some dialogues and
consultative sessions with islanders. Through their activities, they found that
dumping MSW still exists. But, in the MSWM area, the condition of the
environment has been improved since 2000. The report from staffs also shows
that the introduction of an environmental awareness program has got the response
from the local community. And they started these programs from school education.
The areas of these programs covered multi-factional functions of mangrove
ecosystem, biodiversity of flora and fauna, sewage disposals, the hygiene and
sanitary issues, 3R approach, and so on (LUAS/SWMA and Port Klang Project
Management Office, 2006).
2.6.3 Issue for MSWM in Pulau Ketam
As the housing area on the island consists of "floating houses" perched on wooden
stilts 1 to 10metres above sea level. The main roads are narrow concrete
pavements. The old rickety wooden plank bridges can still be seen, in the
residential areas ("Pulau Ketam," 2016). So, there are no cars, nor garbage trucks.
Workers have to push the dustbins to the jetty, along the rickety walkways. And
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workers have to work fast as the boat can only stay during high tide (Li, 2005).
Hence, it is difficult to increase the number of dustbins. This makes the collection
of MSW in Pulau Ketam more difficult. The price for the collection and shipment
are high, which means to handle MSW in Pulau Ketam is more expensive than
that on the mainland.
2.7 Brief Cases of MSWM in Asian Countries’ Islands
Currently, to reorient MSWM system toward sustainability is a global target. Asian
countries are heavily influenced by this change. However, countries have a different
attitude towards sustainability, due to the different economic status.
The quantity of MSW generation also has a relationship with the economic status. Table
2.8 shows the relationship between the composition, waste generation rates and GDP for
some Asian countries. In developing economies with lower GDP, waste generation rates
are also lower (Shekdar, 2009).
Table 2.8: Information on GDP (per capita), waste quantity and composition
for some Asian countries (Shekdar, 2009)
Country GDP
estimated for
2007 (USD)
Waste quantity (kg/capita/day)
Composition (% wet weight basis)
Biodegradable Paper Plastic Glass Metal Textile leather others
Japan 33,010 1.1 26 46 9 7 8 – 12
Singapore 31,165 1.1 44.4 28.3 11.8 4.1 4.8 – 6.6
South
Korea 23,331 1 25 26 7 4 9 29 –
China 8854 0.8 35.8 3.7 3.8 2 0.3 – 47.5 Hong Kong,
China 37,385 2.25 38 26 19 3 2 3 9
Malaysia 12,702 05–0.8 40 15 15 4 3 3 20
Thailand 9426 1.1 48.6 14.6 13.9 5.1 3.6 – 14.2
Philippines 5409 0.3–0.7 41.6 19.5 13.8 2.5 4.8 – 17.9
Indonesia 5096 0.8–1 74 10 8 2 2 2 2
Sri Lanka 5047 0.2–0.9 76.4 10.6 5.7 1.3 1.3 – 4.7
India 3794 0.3–0.6 42 6 4 2 2 4 40
Vietnam 3502 0.55 58 4 5.6 1.6 1.5 1.8 27.5
Lao PDR 2260 0.7 54.3 3.3 7.8 8.5 3.8 – 22.5
Nepal 1760 0.2–0.5 80 7 2.5 3 0.5 – 7
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With obvious economic growth, Japan, Singapore also South Korea have been rapidly
boosting their MSWM systems. MSWM in these countries has a common, ultimate goal
that to eliminate landfills from their systems. Their MSWM systems are very stable and
supported by a lot of legal measures and national funding.
Currently, for conforming to the global trend of development, the MSWM system is ready
to contribute towards a sustainable society consistent with relevant legislation. In table
2.9, time-line and national programs have been launched in Taiwan, South Korea, and
Japan (Shekdar, 2009).
Table 2.9: Solid waste programs in the developed economies in Asia (Shekdar,
2009)
Country National
program
Plan
period
Waste
generation Recycling rate
Solid waste
disposal
Taiwan
Complete
recycling for zero
waste
Initiated
in 2003 –
154 tons be
recycled in
2007,199 tons in
2011 and 316
tons by 2020
No waste be
landfilled in
2020
South
Korea
Firm
establishment of a
sustainable and
resource-
circulating
socioeconomic
foundation
2002–
2010
Reduction by
12% Increase by 53%
Reduction
by 22%
Japan
Establishing a
sound material
society
2000–
2010
Reduction by
20% Increase by 40%
Reduction
by 50%
2.7.1 Hong Kong, China
In the year 2005, Hong Kong generated 6 million tonnes of solid waste. Among
them, 43% was recovered, and others were handled by landfilling. Then, to
prolong the service life of existing landfills becomes a problem which needs to be
solved. Now, the MSW in Hong Kong mostly disposed by thermal treatment
(Shekdar, 2009). In fact, Hong Kong is facing a controversial debate. To prolong
the service life of landfills, or to use the advanced incineration facility, this is a
question of solving the MSW disposal issue. However, the Hong Kong Special
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Administrative Region Government is also taking efforts to reduce the carbon
intensity (Woon & Lo, 2013).
In 2010, the recycling rate in Hong Kong has achieved 52%, but approximately
9,000 tonnes of unrecoverable MSW were still discarded in the landfills daily
(HKEPA, 2010). Currently, Hong Kong only relies on landfilling for MSW
disposal. However, Hong Kong is facing a serious problem that shortage of land
for MSW disposal sites. The current strategic landfilling site, named West New
Territories will be exhausted in 2018 (HKEB, 2013).
To solve this problem, a policy framework for MSWM was made by the Hong
Kong Environment Protection Department (HKEPD). In this framework, the
approaches for increasing the rate of MSW reduction, and extending the quantity
of disposal MSW are applied. Although there are a lot of controversies, the
HKEPD has proposed to implement landfill extension (LFE) and Integrated Waste
Management Facility (IWMF), with the advanced incineration facility (AIF)
(Woon & Lo, 2013).
2.7.2 Singapore
In Singapore, the legislation to handling MSW is the Environmental Pollution
Control Act (EPCA). It was made in 1999. This act is a consolidation of existing
legislation on the control of solid waste, water and air (Bai & Sutanto, 2002;
Zhang, Keat, & Gersberg, 2010). In 2000, the National Environmental Agency
(NEA) formulated a series of strategies and programs for MSWM in Singapore.
They are including the recycling program for MSW, and to promote recycling in
schools and community areas. Then, 3P (public, private and public, government)
initiatives and a lot of programs for increasing public awareness are also
introduced (Shekdar, 2009; Teo, 2007).
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There are 2 collection methods have been adopted in Singapore. One of them is a
direct collection, which the waste is directly collected from individual households,
such as private residences. This way is consuming time, and need a lot of workers.
Another one is an indirect collection. This is including two types. The first one is
used in the old building, like a high-rise apartment. In these buildings, the
containers are filled with an extensive quantity of MSW.
The second one is centralized refuse-chute (CRC) system, there is a central
garbage container in the apartment, and the MSW is discharged directly through
common hoppers located in individual flats. Then, the collection trucks will
transport these MSW. To use the CRC system can effectively control the leakage
and smell in a time of collection and transportation process. Moreover, this system
has extremely increased the collection efficiency of MSW (Zhang et al., 2010).
The daily MSWM system starts with a network of collection vehicles, then
through the mechanical compactors, transfer stations and container trucks. At last,
the processed MSW will be sent to sanitary landfills or incineration plants (Foo,
1997).
In 2001, the National Recycling Programme (NRP) was established by NEA.
Under this program, recycling bins have been positioned at public area. And also,
4,100 sets of centralized recycling depositories have been positioned in public
areas. As a result, the rate of recycling rose from 40% to 49%, and MSW
generation was reduced by 8%, in 2005. Then, the targets of “Towards Zero
Landfill” and “Towards Zero Waste” had been formulated by the NEA (Teo,
2007).
2.7.3 Japan
According to (Shekdar, 2009), the MSWM systems in Japan may be the best. By
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enhancing the awareness and participation of society, developing the relative
technology, and publishing new legal approaches, the MSWM system is being
improved in this country.
At the beginning, the MSWM aims to sustain the standards of public health. As
the economic development, this system needs to face lots of problems. For
examples, energy recovery became the major focus, during the 1970s. Recycling
was legally mandated in the systems, in the 1990s. Then, in 2000, basic laws for
MSWM were formulated to improve a recycling-focused society for sustainable
development. Currently, citizens put the MSWM as a shared responsibility. They
separate the waste into recyclables, non-combustibles, and combustibles. Then,
they deposit the sorted waste fractions at the collection centers (Shekdar, 2009).
Moreover, municipalities are responsible for the source-separated collection.
They collect metal, glass, waste paper, cans, etc. as recyclable materials. After
separating MSW at the source, they will be transported proper recycling facilities.
The bulky waste, such as furniture or home electric appliances, contains
recyclable material will be crushed before recycling. Last, the manufacturers will
help with material recycling.
Nowadays, incineration is advanced in Japan. This disposal method can achieve
the 98% volume reduction with the use of plasma arc technology for ash
processing. In 2005, MSWM system handling about 53 million tons of solid waste,
among them 13% was landfilled, 68% underwent intermediate processing, mostly
by incineration, and 19% was recycled. However, this disposal method for MSW
is very costly (Terazono, Yoshida, Yang, Moriguchi, & Sakai, 2004). In addition,
there is a big challenge about MSWM in Japan. As the opposition of public,
shortage of available land, it is always difficult to obtain land for MSW disposal.
This directly leads to illegal dumping become the very significant and serious
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problem (Shekdar, 2009; Terazono et al., 2004). Therefore, MSWM in Japan is a
crucial project with the target to implement “Zero Waste”.
2.7.4 Conclusions
MSWM in these cases have some common features. There is no doubt that both
of them faced a shortage of land resources. To reduce the discharge of MSW, and
to improve the recovery rate of MSW has become the focus of attention.
Hence, in these cases, the government formulates sufficient plan to manage MSW.
The reliable data, such as MSW generation, composition, recycling rate, and so
on, are collected on a regular basis. Then, these data will be used in MSWM
design and system operations. Similarly, lots of literature is available on various
aspects of MSWM. They also established facilities for technical training. An
important key point is using proper equipment to decrease the number of labors
because of the increasing costs in the service industries. The processes of MSWM,
such as collection, transportation, processing and disposal, technologies are
established very well. And there is a plenty of funds to support the MSWM system.
Furthermore, the citizens are performing their responsibilities with high
awareness. Last, they have realistic prospects of the managing authorities which
made serious attempts to increase the rate of recycling, to decrease the burden of
landfills, and to achieve sustainable development (Shekdar, 2009).
2.8 Literature Review Summary
As a mangrove island, the ecosystem in Pulau Ketam is very fragile. Recently, the main
economic sources of this island are fishing and tourism. Therefore, an efficient MSWM
system can protect the environment on the island, and promote the development of
tourism. Due to the geographical location of this island is far from the mainland (about
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30min by boat), the population flow on this island is small. Moreover, there is no
industrial or manufacturing on this island. These provide the conditions to set up this
island as the pilot area for practicing a comprehensive and advanced MSWM system.
At the beginning, the MSWM system in Pulau Ketam aimed to improve the living
environment quality. However, the result of this management system is not good enough,
due to the high price of MSW disposal and the low efficiency collecting system. To
improve MSWM system in Pulau Ketam, the issues of this system should be identified
first. Then, based on the experience which from the efficiency management systems in
Asian cases, the options can be provided to overcome the issues. Although the economic
development condition in Malaysia is different to that in Hong Kong, Japan and
Singapore, the MSWM system practices in these cases still provide models to Pulau
Ketam.
In addition, the most successful MSWM system in Japan has been practiced in Kamikatsu.
The MSWM system in Pulau Ketam will be compared with this Japanese town’s system.
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CHAPTER 3: METHODOLOGY
3.1 Introduction
This chapter will discuss the methodology used in the research. As an investigation report,
this part will explain who to find and analyze the problems of the current MSWM system
in Pulau Ketam. And also, it will provide reasons for the proposed solutions.
3.2 Research Design
Figure 3.1: A Sketch for Research Design
Research problem:
What makes the MSWM in Pulau Ketam is
not successful?
Using methods:
Interview
Observation
Documentary Analysis
Finding & analyzing the
issues lead to unsuccessful
MSWM
Based on the
practices in other
Asian cases
Provide the improvement
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As figure 3.1 shows, this study needs to analyze and find the issues in the current MSWM
system, in Pulau Ketam, Selangor. For this purpose, the Pulau Ketam village was chosen
as the study area. The problems of the MSWM system on this island were identified
through interview, observation, questionnaire, and document analysis of previous studies
and on-line information.
In addition, literature review part summed up the common features of MSWM systems
in other islands, especially Hong Kong, Singapore, and Japan. By comparing the MSWM
in Pulau Ketam and in these areas, the sustainable solutions have been proposed.
3.3 Information Collection
3.3.1 Document Analysis (Secondary Data)
Before conducting the research, the relative information has to be collected and
analyzed. They can be collected from journals, reports, databases, and internet
webs. The document analysis was displayed in the literature review part.
The basic information of MSWM should include source, category, characteristics
and composition of MSW, and management methods for MSW. Additionally, the
history, existing management system and policies for MSW in Malaysia also need
be analyzed. Moreover, the basic data about Pulau Ketam also need to be collected,
before visiting it. These data should include geographic and traffic information,
as well as the history of MSWM on this island. Finally, the MSWM in the other
Asian countries’ islands/places was also collected on-line. As brief cases, MSWM
on these places would be the examples for Pulau Ketam, and provide the
sustainable solutions to improve the management system on this island.
In addition to mention is all the data in this report is secondary data, due to the
limited time and fund. These data exist in the previous research, such as relevant
books, journals, etc. And also, they can be found from other sources on the internet,
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including news, government websites, and so on.
3.3.2 Interview
By visiting this island, the study area which is the residential zone of the Pulau
Ketam village can be identified. As the interview time was a workday, 10 islanders
were interviewed. They were school students, business operators, restaurant and
hotel workers. In addition, the questions in interview part are different to the
questionnaire. The interview questions are including the location of MSWM
infrastructures, their attitude to manage MSW, the reason for dumping trash, as
well as residents’ comment of the local authority, solid waste company and NGO.
Through interviews can get detailed information about MSWM in Pulau Ketam.
The waste management company has been changed from Alam Flora to Umi
Kasmah Enterprise. This company still shipping MSW to Klang four times per
week. Moreover, parts of islanders will salvage floating waste twice per month
when spring tide. There is an NGO, named Tzu-Chi, on the island, they also do
some recycling. Then, the islanders will support to improve the MSWM system,
meanwhile, some of them complained about the number of dustbins was not
enough.
In order to get more detailed information, the emails for requesting an interview
and some detail data were sent. Unfortunately, neither Umi Kasmah Enterprise
nor Tzu-Chi replied email. Due to the time for this research is limited, these
requests had to be cancelled.
3.3.3 Observation
Table 3.1 shows the observation ways, used in this study.
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Table 3.1: Observation Ways
Number Methods Remarks
1 Visually Rented a bicycle, and observed the
surroundings in Pulau Ketam.
2 Walk Through Some area cannot reach by bicycle.
3 Photograph
Recorded the situation of MSWM system
practices, included shipping boat, dustbins,
recycling points, inert waste landfill site.
Through observation, there is some phenomenon and the behavior of residents
was recorded. The restaurants and hotels, especially near the jetty, dispose their
MSW into dustbins nearby. However, some residents those far from the dustbins
normally put the MSW outside their house and dispose of MSW once 2 or 3 days.
Then, the dogs and crows get chances to make the trash out for finding foods, the
trash usually drops onto the ground. Even, there are some people still dump MSW
into the sea. In addition, there are some recycling points provided by Tzu-Chi.
Although these points are very simple, there is still recycling something, such as
plastic bottles, cans. Also, the landfill for inert waste in this island was visited,
without management, this place can be described as a mess.
3.3.4 Questionnaire
At the same time, questionnaires also need to be done about the islanders’ attitude
of MSWM. The questions were about the major waste, facilities, the situations of
this island, and islanders’ judgment and ideas. However, because English
popularity is not high on the island, the English questionnaire to fill out rate is
quite low. For this reason, the questionnaires were changed into bilingual
(Chinese/English), in APPENDIX A.
The major result of questionnaire survey is that most residents in Pulau Ketam did
not realize the importance for MSWM, especially elderly people. The islanders
support the MSWM in mind, but they lack activities. Most of them blame that sea
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dumping still existing to a shortage of dustbins. In view of the perspective of an
observer, however, the lack of the awareness (MSW cause a series of problems to
the environment and human health) is the fundamental reason.
3.4 Ethical Statement
In this research, the participants will take part voluntarily and are informed of the research
aim and objectives. All personal details of participants are kept in privacy being be stored
separately from the findings and will not be disclosed within the dissertation. The research
is not for commercial use.
3.5 Safety Precondition
As this study needs to travel to Pulau Ketam by KTM and ship, there are some safety
conditions should be noticed.
1. Leave itinerary with friends and supervisor
2. Map out directions
3. Cellphone and charging treasure
4. Stay on main roads
5. Beware of surroundings
6. Should not go to danger area
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CHAPTER 4: RESULTS AND DISCUSSION
4.1 General Municipal Solid Waste Management History in Pulau Ketam
The MSWM in Pulau Ketam started in 1999. The Selangor state government contracted
waste management company Alam Flora and gave the company the responsibility to
manage MSW on the island (LUAS/SWMA and Port Klang Project Management Office,
2006). During the initial period, Alam Flora made a program for introducing and
managing the MSW as well as changing the idea of locals. Recently, through a new round
of bidding, the company Umi Kasmah Enterprise has taken over this job. By carrying out
the systematic MSWM service, the residents' attitudes towards acceptance and practice
of sustainable solid waste management changed (Yaacob, 2004). However, the situation
of MSWM in Pulau Ketam still appalling.
4.2 Current Issues in Pulau Ketam
4.2.1 Incomplete Collection System
This mangrove island is a mudflat, and lack of available land resources for
landfilling, and there is no incineration nor composting to disposal MSW. In
addition, this island has no roads, all the structures which stand on stilts, are linked
by a narrow, twisting network of wooden walkways.
Therefore, to collect the MSW on this island is not easy. There was no garbage
truck to collect MSW. All the dustbins, as figure 4.1 shows, were pushed by
workers to the jetty. Univ
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Figure 4.1: Dustbin Provided by Waste Collection Company
According to the investigation on Pulau Ketam, the MSW collection system was
shown as below:
Table 4.1: MSW Collection System on Pulau Ketam
Collectors Time Kind of MSW
Company Umi Kasmah
Enterprise 4 times per week (Monday,
Wednesday, Friday, Sunday) Mixed in dustbins
NGO Tzu-Chi Once a week (Monday
6:00pm~9:00pm) Recyclable (i.e.
plastic bottles) The Village
Committee Residents Twice a month (when high tide) Floating trash
The MSW, collected by Umi Kasmah Enterprise, is shipped to Klang for
landfilling. One of the cargo ships used for MSW transportation has been shown in
figure 4.2. However, as the amounts of MSW increases, the number of shipments
increases and disposal becomes costly. Shipping all the waste to landfilling was
not the best way for disposal MSW of Pulau Ketam.
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Figure 4.2: Cargo Ship for MSW Used by Waste Collection Company
Tzu-Chi, an NGO from Taiwan, has been doing recycling in Malaysia, since 1997.
They also set recycling points in Pulau Ketam, as the one shown in figure 4.3
shows. Residents would throw recyclable MSW here, then Tzu-Chi would do the
recycling processes.
Figure 4.3: Recycling Point of NGO
4.2.2 Defective Storage System
In fact, open dumping is very common in developing countries. The characters of
open dumping include: low regulations, low or none planning, low control, and
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consequently dumping sites are also low engineered (Lindell, 2012). Open
dumping also exists in Pulau Ketam.
As figure 4.4 shows, there is an inert waste landfill on this island, built by
government. According to a news from SELANGORKINI, this landfill site
completed in December last year (Selangorkini, 2015). This site only accepts inert
waste, including construction waste, woods, iron products, plastics, and paper.
On stone tablets: Tapak pelupusan Sisa Lengai Pulau Ketam
Figure 4.4: Inert Waste landfill, Pulau Ketam
However, this inert waste landfill has become an uncovered temporary dumping
area without proper management. Islanders just throw all the rubbish there. As
seen in the figure 4.5, food waste is also thrown into this site. The MSW in this
dumping area was mixed and exposed to the sun and rain, which means that was
a potential hazard to the environment.
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On the right side, there is a signboard, writing “TEMPAT PEMBUANGAN SAMPAH SEMENTARA”.
Figure 4.5: Temporary Disposal Sites
4.2.3 Lack of Awareness
With the cooperation of other agencies, the local community, and the Klang
Municipal Council were setting the program to increase islanders’ environmental
awareness (LUAS/SWMA and Port Klang Project Management Office, 2006).
Over the past ten years, there were organized public talks, environmental
awareness education, and community clean-ups, to encourage resident taking part
in MSW disposal (Li, 2005).
As there was no MSWM system, nor cleaning service for more than 100 years, it
is not easy to change the habits of residents (Yaacob, 2004). Although these
measures have changed the condition of MSWM in Pulau Ketam, the residents in
Pulau Ketam still lack of awareness about MSW. Not all islanders are clear about
the reasons for doing MSWM and did not realize the problems caused by dumping
waste. Moreover, dustbins on this island are not enough, some islanders did not
want to walk a long distance for handling their waste. As figure 4.6 shown, rubbish
is still thrown under the wooden bridges in the village. During high tide, the spaces
under the wooden bridges are covered by sea water. The rubbish eventually ends
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up into the sea.
Figure 4.6: Trash Dumping on The Island
The residents doing business on the island, such as shop, restaurant and hotel
operators, are supporting proper MSW disposal. But, those living further inland
do not care about this problem. Some of them are accustomed to staying with junk
because they are not aware of the hazard caused MSW. For example, the
fishermen did not know dumping will eventually harm the marine environment
which supports the island’s thriving fisheries and fish farms (Li, 2005).
In addition, the local government lack of management on MSW. Although the
Malaysian government has lots of policies for MSWM and also makes penalty to
whom commits an offense against the regulations, these policies are just on papers
without enforcement.
4.2.4 Incomplete Recycling Process
Even if it was just a rough classification, this island still has a little recycling
process.
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On one hand, Tzu-Chi, an NGO from Taiwan, will collect recycling waste every
Monday. Their recycling list is including plastics, glass bottles, aluminum cans,
iron products, hardware, electric appliance, papers, and clothes. Then, the
recyclable waste collected by Tzu-Chi will be transported to one of their recycling
centers in Klang. After classifying these wastes, these renewable resources will
correspond respectively to the recycling companies. However, some islanders
would put other rubbish into these points, said by Johnson Cha who’s running a
hotel on the island.
On the other hand, some villagers were collecting and separating recycled waste,
then resell those valuable to recycling companies, privately. Normally, they
collected the waste, like electrical appliances and hardware, by paying some
money to the owner. Then, split these wastes into different components by
themselves, then resell the material with a higher price to other companies.
As figure 4.7 shown, this is a private recycling point was filled with waste in Pulau
Ketam. Unfortunately, this private recycling stop cannot classify MSW very well
and recycling of species also has limitations. Firstly, the islanders who were doing
private recycling only collected the waste which can be resold. In addition, they
didn’t have specialized knowledge to manage these wastes. In this recycling stop,
recyclable wastes were piled up randomly.
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Figure 4.7: Private Recycling Point
4.3 Compare with Kamikatsu, Japanese Town
As Japan already has a very mature system of MSWM, it provides a complete model for
Malaysia. In Japan, MSWM in Kamikatsu is the most successful.
Kamikatsu is a small Japanese town. The population of this town is only over 1,700. There
is a mission in here that to become the first ‘zero-waste’ community in Japan by 2020.
According to the local report in 2015, around 80% of its trash has been recycled, reused,
or composted, with the last 20% going to be landfilling (Phil Green, 2016). In 2000, for
protecting the eco-environment in the village, this town closed two incinerators, has
terminated the incineration treatment for years (Palmisani, 2016). Correspondingly, the
division of the garbage collection category increased from 19 to 34. Later, in order to
further reduce the discharge of wastes, this small town which has attached great
importance of MSW problem, was refined the collection category from 34 to 44 (Poon,
2015).
This town has no garbage trucks. Therefore, every resident has to bring their waste to the
recycling center by themselves, every Tuesday and Friday morning. And this journey will
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spend average 15min. Before that, they also need to wash and sort their waste. At the
recycling center, there is a worker oversees the sorting process, and to ensure waste goes
into the right bins. Some used items will be resold or repurposed into accessories, toys,
and clothing.
After Kamikatsu get rid of the habit of dumping trash into an open fire for fear of
endangering both the environment and the population, the committee of this town
declared its zero-waste ambition in 2003 (Onishi, 2005).
For this ambitious goal, Kamikatsu has gotten international attention, but this is not the
only town that is making recycling progress, said by Neil Seldman, co-founder, and
president of the Institute for Local Self-Reliance. “Berkeley, California, which is several
hundred thousand people, is close to 80%; San Francisco reports 70%; and there are
several cities in the U.S. that are over 70%,” he said. “In Italy, they do it similarly to
Kamikatsu where they have many different separations and drop off.” For the most part,
he adds, the efforts are led by NGOs (Poon, 2015).
The features of MSWM in Kamikatsu and Pulau Ketam are compared in table 4.2.
Table 4.2: MSWM Features in Kamikatsu and Pulau Ketam
Items Kamikatsu Pulau Ketam
Small population 1,700 6,000
Collectors Each resident Workers & volunteers
Collection time Twice a week Four times a week
Garbage trucks No No
Transportation Each resident Shipment
MSW Disposal
Landfilling Transfer MSW to another place for landfilling
Incinerator No No
Composting For food waste No
The information in this table shows both Kamikatsu and Pulau Ketam are transferring
their MSM to another place for landfilling, and there is no garbage truck for MSW
collected in these two places. The residents in Kamikatsu do MSW collection,
classification, transportation and composting by themselves. In contrast, the public
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participation of MSWM in Pulau Ketam is not enough. MSWM system in Kamikatsu
could be a good example for Pulau Ketam.
4.4 Suggestions Measures for Pulau Ketam
4.4.1 Increase the facilities for MSW
Currently, the dustbins with wheels are used on the island. However, the number
of dustbins on the island is not enough. Therefore, most of the islanders have to
walk a long distance for throwing their waste into the dustbin. Some of them just
put the garbage outside the door, then the dogs and crows can have chances to put
the garbage everywhere for searching food. In addition, as workers have to push
the dustbins to the jetty along the narrow walkways, more dustbins would require
more workers (Li, 2005).
To alleviate the situation of dumping, improving the collection system will be
necessary. The first thing needs to do, is to increase the MSW disposal facilities,
especially dustbins, on this island. Replacing the old-style dustbins to smaller
classification recycling bins is one choice for this island. As figure 4.8 shown,
dustbins used in Pulau Ketam (picture a) can be changed into smaller bins, such
as dustbins in China (picture b) or in Japan (picture c). Dustins in China and Japan
can simply classify garbage before transportation process. And the number of
dustbin placement points can be increased because of their smaller size. Increasing
the number of dustbins means the distance of throw trash for islanders can be
shortened. In addition, the number of dustbins should base on the dwelling area,
every 20 ~50 meters need to place a trash bins.
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Figure 4.8: Comparing Dustbins
Another thing for solving this problem is using small carts to collect MSW. As
figure 4.9 shown, waste collection cart (a) or (b) can be used for waste collection,
then workers transporting these carts to jetty instead of pushing the dustbins one
by one. The number of waste collection carts will be based on the number of
dustbins, normally, 1 cart can collect MSW from 3~5 dustbins.
Figure 4.9: Carts for Waste Collection
After simply classifying, these collected MSW can be transported separately. The
unrecyclable waste can be shipped to Klang for landfilling. And the recyclable
waste, after further processing, will become renewable resources. Therefore, the
amount of rubbish for landfilling could be decreased, which means the cost of
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landfilling would be reduced and the service life of landfill sites could be
increased.
4.4.2 Storage Area
The inert waste landfill on the island cannot be used for disposal the daily
household waste. However, this area has been a temporary dumpsite for islanders.
The government and the local committee did not provide corresponding
management measures.
To solve this issue, the government should enforce the relevant regulations, and
manage the waste in this landfill. In addition, this area can be changed to be a
temporary storage for MSW.
The new concept of temporary storage will promote the optimization of waste
recycling. Temporary Storages have been defined by Nanne K. HOEKSTRA and
Hans GROOT, as “environmentally and structurally safe storage places that
already permit present in situ recovery of materials and energy from waste streams
and allow easy future access to resources whenever needed.” (Hoekstra & Groot,
2013). In this theory, waste materials are potential resources which mean these
resources will not be handled by landfilling or incineration anymore. Moreover,
this concept allows for realizing recycling with a time delay and also promotes
recovery of valuable materials from old or abandoned landfill sites. At the same
time, using temporary storage can carry off the environmental threats caused by
landfilling. Temporary storage is a bridge connected present to future. It provides
a place for waste storage, the MSW that cannot be recycled or reused with present
technology, can be stored in this place waiting to be recovered in the future
(Hoekstra & Groot, 2013).
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4.4.3 Use the appropriate disposal technic
To set a landfill site needs to consider topography situation, Geotechnical
conditions and the engineering, geological conditions (Carey & Carty, 2000). As
Pulau Ketam is actually a mudflat, the geographical conditions of this island are
not suitable for construction of the sanitary landfill.
In fact, incineration was considered in 1995, but it could cost a lot. On this island
where lacks of land, the incinerator is an option, but the gas-cleaning system is
one problem which cannot be ignored. Furthermore, the high moisture, as much
as 70%, and low calorific, below 5,000 megajoules per kg, which means the waste
in the incinerator is unable to keep burning themselves after fired. So, to ensure
complete combustion, auxiliary fuel such as diesel will be needed. The high cost
of fuel is another one reason why incinerators are hardly used (Li, 2005).
Due to the most kind of MSW on this island is food waste, various plastic products,
and glass, among them organic rate nearly take 50%, composting is another option
for disposal MSW (Li, 2005). Composting is the microbial degradation of the
organic solid material. It yields the stabilized end-product compost. Various
MSWM objectives can be achieved through composting, including sanitation,
mass and bulk reduction, and resource recovery. Besides, compost can bring
economic benefits in certain specialized practices, such as hotbed gardening, and
as an edible fungus cultivation matrix. For these purposes, compost derived from
MSW can take the place of the traditional horse manure preparation. Moreover,
compost can be an economical soil amendment, used for high-value crops,
especially flowers and vegetables (Finstein & Morris, 1975).
If central composting cannot be implemented, the islanders could use household
composting bins to dispose their organic waste individually, shown in figure 4.10.
For instance, in Kamikatsu, residents use small home composting systems for
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handling kitchen waste. With the help of government subsidies, 98% of
households in Kamikatsu are using this system to dispose of their organic waste.
Therefore, there is no need for an industrial composting facility (Phil Green, 2016).
Figure 4.10: Composting Bins
4.4.4 Increase the Awareness of Islanders
Actually, not all islanders would prefer to separate their MSW. To solve this issue,
the awareness program needs to be strengthened, as most islanders did not realize
the consequences of environmental pollution caused by MSW.
Increasing awareness of residents is a major step for MSWM. Enough propaganda
will be necessary, islanders need to understand the impacts caused by MSW; the
practice for 3R approach; the safe way for MSW disposal; and their legal
responsibilities for MSW. These knowledge and skills gained from environmental
education could help in changing human behavior to the environment (Timlett &
Williams, 2009).
In addition, the awareness education about environmental problems and solutions
for students still needs to strengthen. Students are more active to participate in
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environmental protection plans and activities. They may also share new
information with their families, community, and other adults. This will bring some
positive impact on MSWM practices (Desa, Yusooff, & Kadir, 2012).
Last but not least, the government needs to make efforts that mean the policy and
regulation are required, especially the implementation of laws. There are
regulations for MSWM, however, they are less performed. As figure 4.11 shown,
illegally disposed of the rubbish would take a penalty. If enforced laws strictly,
the problem of MSWM could be solved better.
Figure 4.11: Penalty for Litter and Burning Rubbish
4.4.5 Upgrade Recycling Points
On the island, although there are some recycling points provided by an NGO,
these stops are not specified. Referring to figure 4.3, the recyclable wastes in these
cages are exposed to the sun and rain.
Actually, Malaysia has designed the recycling station, and they are already used
for MSWM. As figure 4.12 shows, this station has the preliminary classification
of MSW, and it has an awning. Through effective management in these stations,
which obviously improve the recycling rate of MSW.
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Source from the internet, The Edge Property
Figure 4.12: Legal Recycling Station in Malaysia
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CHAPTER 5: CONCLUSION AND RECOMMENDATION
5.1 Conclusions
Through investigating, this study has analyzed the existing MSWM system in Pulau
Ketam, and also provided relative solutions. The MSWM on this island has made some
progress, but there is still a large space for improvement.
After analyzing the situation of MSWM system on this island, there are some major issues
that cannot be ignored. The first one is an unsound collection system, especially lack of
facilities/dustbins, which caused by economic reasons. Then, the second one is the
MSWM system lacking of management, due to the political reasons. Thirdly, the
residents in Pulau Ketam lack of awareness, which can be considered to be the social
reasons. Additionally, the inert waste landfill site had been a potential risk to the
environment.
To implement sustainable development is not easy. In reaching this goal, MSWM in Pulau
Ketam need a more advanced system which is effective and economical. After compared
with other cases in Asia, especially Kamikatsu, there are some suggestions for the Pulau
Ketam to achieve sustainable MSWM system. The composting is an effective way of
handling organic waste. Especially, household compost bins are quite economical and
easy to operate. For reducing waste, to increase the number of facilities for recycling is
necessary. Segregation and recycling of MSW can significantly reduce the number of
MSW to landfilling, and increase the utilization rate of resources. It is equally important
to find an effective way to increase the awareness of MSWM in Pulau Ketam. Last but
not least, the local authority should enhance the implementation of policies, not only to
manage MSWM system operation, but also to prevent people from dumping by a
mandatory administration.
In a word, local authority needs to plan and operate the system in an IWM approach. In
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this approach, the local committee, NGO, relative companies and departments need to
cooperation with each other and making systematic efforts to implement sustainable
MSWM.
5.2 Recommendations for Future Study
In future studies, the challenges in implementing these suggestions can be explored.
Firstly, to interview the local authority, NGO and waste collection company should be
done to understand the issues faced by them as well as their future plans on this island.
Secondly, the detail data of MSW generation and composition in Pulau Ketam should be
collected by researchers. Thirdly, a systematic feasibility analysis of sustainable MSWM
implementation on this island should be done. Then, future researchers should set out a
new awareness program and carry out this program on the island, then analyzing the
challenges in this process. Finally, researchers can also start a new recycling program,
then analyzing the recycling rate and finding the problems with this program.
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APPENDIX A
Questionnaire
A Survey for Current Situation of Municipal Solid Waste Management in Pulua Ketam,
Malaysia (Sep. 2016)
1. Do you know Municipal Solid Waste Management?
你知道城市垃圾管理吗?
□ YES 是 □ NO 否
2. Do you know how to category Solid Waste?
你知道垃圾分类吗?
□ YES 是 □ NO 否
3. Do you think it is necessary to classify the garbage?
你认为有必要进行垃圾分类吗?
□ YES 是 □ NO 否 □ Don’t care 不关心
4. Which kind of solid waste is the most (can choose more)?
哪种垃圾最多?(可多选)
□ paper 纸制品
□ plastic 塑料类
□ metals 金属类
□ food waste 食物/厨余
□ glass 玻璃
□ e-waste 电子垃圾
□ furniture 家具
□ others 其他
5. How often do you throw the rubbish?
你多久扔一次垃圾?
□ Twice a day 一天两次
□ Once a day 一天一次
□ Once two days 两天一次
6. Where do you usually to disposal household waste?
你通常将垃圾扔到哪里?
○ junk boxes on streets 街边垃圾箱
○ garbage station 垃圾站
○ discarded 乱扔
○ burned by yourself 自己烧掉
○ others 其他
7. Do you think the best methods of garbage disposal is:
你认为最好的垃圾处理方式是:
□ incineration 焚烧 □ landfill 填埋 □ compost 堆肥 □ others 其他
8. If 1 score is the worst, 10 score is the best, could you tell me what do you think of Pulua
Ketam municipal solid waste disposal policy score?
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你认为吉胆岛的垃圾处理政策能得多少分?(1~10 分)
○ 1
○ 2
○ 3
○ 4
○ 5
○ 6
○ 7
○ 8
○ 9
○ 10
9. How do you think the government should optimize Pulua Ketam municipal solid waste
management policy?
你认为政府应该怎样优化螃蟹岛的垃圾处理政策?
○ Increase the number of waste treatment facilities
增加处理设施数量
○ Strengthen the management of relevant laws and regulations
加强相关法律法规管理
○ Strengthen the information of waste disposal/recycling education & publicity
加强垃圾处理/回收知识的教育与宣传
○ Using more advanced waste treatment technology and optimize existing waste
management facilities
使用更先进的垃圾处理技术,以及优化现有垃圾管理设施
○ Others
其他
10. Whether you want the government to increase the amount of waste treatment facilities?
你希望政府增加垃圾处理的设施吗?
○ YES 是 ○ NO 否 ○Don’t care 不关心
11. What would you most like to the government to increase the amount of waste treatment
facilities?
你认为哪种垃圾处理设施是政府最应该增加的?
○ Junk boxes 垃圾箱
○ Garbage station 垃圾站
○ Garbage incinerator 垃圾焚化炉
○ Landfill area 填埋场
○ Trash pickup vehicle 垃圾运输工具
○ Recycling bins 回收箱
○ Propaganda and education center 宣传与教育中心
○ Others 其他
Univers
ity of
Mala
ya
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